Issue56

S. A. Rizvi et alii, Frattura ed Integrità Strutturale, 56 (2021) 84-93; DOI: 10.3221/IGF-ESIS.56.07

wire is used as a filler wire [1]. Several statistical and computational techniques such as response surface methodology, ANN, and Taguchi [2] techniques were applied to develop the mathematical modeling and process parameters optimization. Response surface methodology (RSM) is a powerful mathematical tool used to optimize the process parameters in processes such as machining, welding, and casting etc [3-5] and also used to develop a mathematical model [6] and it minimize the number of experiments. Muralimohan Cheepu et al [7] developed a mathematical model and optimize the welding process parameters during the laser welding of titanium alloys and compared the obtained results from response surface methodology with experimental results. Shekhar Srivastava and R.K. Garg[8] developed a mathematical model and optimized GMA welding process parameters during the welding of IS2062 via RSM approach . They verified that the wire feed speed has a significant effect, followed by arc voltage and travel speed. Sanjay A. Swami et al [9] investigated the effect of GMA welding parameters on the mechanical properties of mild steel by designing the experiments using central composite matrix. They concluded that on increasing the CO 2 gas percentage in Ar gas ultimate tensile strength (UTS) increase up to some extend and then decreases. A G Kamble and R Venkata Rao [10] studied the effect of GMA welding process parameters on AISI 202 steel weldments and developed a model for mechanical properties and they showed in their results that higher the arc voltage decreases the hardness and mechanical quality but increases with increasing in welding speed. In the present experimental research work the effect of GMA welding process parameters on the toughness and hardness of IS2062 structural steel of grade A weldments were investigated and a mathematical model was developed by response surface methodology. Scanning electron microscopy (SEM) micro- morphology fracture surface of toughness test samples was studied to determine the ductile or brittle fracture.

E XPERIMENTAL PROCEDURE

I

n this research work, IS 2062 structural work of grade A in form of plate of size 300 mm x 60 mm x10 mm was used as parent metal. Gas metal arc (GMA) welding process was used to weld the parent metal in the shielding environment of 75% Ar+25% CO 2 gas mixture. ER70S-6 of Ø 2 mm is used as filler wire to join the parent metal. Chemical composition of parent metal and filler wire is mentioned in Tab. 1.

Material

C

Mn

S

P

Si

Fe

IS 2062

0.22

1.5

0.049

0.05

0.37

Bal.

ER70S-6

0.20

1.61

0.025

0.025

0.98

Bal.

Table 1: Chemical composition of parent metal and filler wire (wt.%)

Tab. 2 illustrates the different selected input parameters of GMA welding with their corresponding level, their notation, and unit in actual form. The proposed experimental design involves the variation of three factors (arc voltage, wire feed speed, and gas flow rate) at three levels. Welding trials were completely conducted based on central composite design of experiments associated with twenty numbers runs.

Level

Factors

Notation

Unit

-1 25

0

+1

Arc Voltage

V

V

26

27

Wire feed speed Gas flow rate

WF GF

IPM lpm

300

350

400

10

15

20

Table 2: Process parameters and their level

Design matrix is shown in Tab. 3. Toughness test samples before fracture and after fracture are showed in Fig. 1.

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